AI Article Synopsis
- The study aimed to improve radiofrequency ablation (RFA) for liver tumors near blood vessels by adjusting operating parameters to enhance tumor ablation volume while reducing thermal damage to blood vessels.
- Methods included using response surface methodology (RSM) alongside a computer model to find optimal parameters such as ablation time and electrode position for the RFA process.
- Results showed the optimized RFA protocol increased tumor ablation efficiency from 98.1% to 99.6% while reducing thermal damage to blood vessels from 4.1% to 0.4%, demonstrating the feasibility of balancing these conflicting goals.
Article Abstract
Objective: To achieve a result of a large tumor ablation volume with minimal thermal damage to the surrounding blood vessels by designing a few clinically-adjustable operating parameters in radiofrequency ablation (RFA) for liver tumors abutting complex vascular structures.
Methods: Response surface method (RSM) was employed to correlate the ablated tumor volume () and thermal damage to blood vessels () based on RFA operating parameters: ablation time, electrode position, and insertion angle. A coupled electric-thermal-fluid RFA computer model was created as the testbed for RSM to simulate RFA process. Then, an optimal RFA protocol for the two conflicting goals, namely (1) large tumor ablation and (2) small thermal damage to the surrounding blood vessels, has been achieved under a specific ablation environment.
Results: Linear regression analysis confirmed that the RFA protocol significantly affected and (the adjusted coefficient of determination = 93.61% and 95.03%, respectively). For a proposed liver tumor scenario (liver tumor with a dimension of 432.9 cm abutting a complex vascular structure), an optimized RFA protocol was found based on the regression results in RSM. Compared with a reference RFA protocol, in which the electrode was centered in the tumor with a 12-min ablation time, the optimized RFA protocol has increased from 98.1% to 99.6% and decreased from 4.1% to 0.4%, achieving nearly the complete ablation of proposed liver tumor and ignorable thermal damages to vessels.
Conclusion: This work showed that it is possible to design a few clinically-adjustable operating parameters of RFA for achieving a large tumor ablation volume while minimizing thermal damage to the surrounding blood vessels.
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| http://dx.doi.org/10.1080/02656736.2022.2075567 | DOI Listing |
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